Pierre Costet

Spatial Relational Memory Requires Hippocampal Adult Neurogenesis

The dentate gyrus of the hippocampus is one of the few regions of the mammalian brain where new neurons are generated throughout adulthood. This adult neurogenesis has been proposed as a novel mechanism that mediates spatial memory. However, data showing a causal relationship between neurogenesis and spatial memory are controversial. Here, we developed an inducible transgenic strategy allowing specific ablation of adult-born hippocampal neurons. This resulted in an impairment of spatial relational memory, which supports a capacity for flexible, inferential memory expression. In contrast, less complex forms of spatial knowledge were unaltered. These findings demonstrate that adult-born neurons are necessary for complex forms of hippocampus-mediated learning.

Reduction of Infarct Size and Prevention of Cardiac Rupture in Transgenic Mice Overexpressing FrzA

Background—FrzA/sFRP-1, a secreted, frizzled-related protein and antagonist for the wnt/frizzled pathway, is expressed in the heart and vessels during mouse embryogenesis and adulthood. FrzA is involved in cell cycle control of vascular cells and angiogenesis. We assessed the hypothesis that FrzA could control the healing process after myocardial infarction (MI). Methods and Results—We demonstrated an upregulation of sFRP-1 and distinct wnt and fz member expression after MI. We established transgenic (Tg) mice that overexpress FrzA under a cytomegalovirus promoter and developed a model of MI by coronary artery ligation. FrzA reduced cardiac rupture after MI in Tg (6.5% versus 26.4% in controls; n=165, P <0.01). MI was smaller in Tg at each time point (18±10.8% of left ventricular circumference versus 30±14.2% in controls at day 30; P <0.001). Similar results were found in cryolesion-induced MI. Cardiac function was improved in Tg mice (3800±370 mm Hg/s dP/dtmax versus 2800±840 in controls; −2800±440 dP/dtmin versus −1800±211 in controls at day 15; P <0.001). Early leukocyte infiltration had decreased in Tg mice during the first week. Apoptotic index was decreased by 50% in Tg mice at day 7. Matrix metalloproteinase-2 and −9 activity was reduced in Tg mice at day 4, and collagen deposition in the scar was increased in Tg mice. Capillary density in the scar was higher in Tg mice (290±103 vessels/mm2 versus 104±43 in controls at day 15; P <0.001). Vessels were more muscularized, and mean lumen area was 3-fold higher in Tg animals. Conclusions—Overexpression of FrzA, through direct or indirect interaction with different phases of infarct healing, reduced infarct size and improved cardiac function.

Overexpression and role of the ATPase and putative DNA helicase RuvB‐like 2 in human hepatocellular carcinoma

Using a proteomic analysis of human hepatocellular carcinoma (HCC), we identified the overexpression in 4 tumors of RuvB‐like 2 (RUVBL2), an ATPase and putative DNA helicase known to interact with β‐catenin and cellular v‐myc myelocytomatosis viral oncogene homolog (c‐myc). RUVBL2 expression was further analyzed in tumors with quantitative reverse‐transcription polymerase chain reaction analysis and immunohistochemistry; in addition, RUVBL2 expression in a HuH7 cell line was silenced by small interfering RNA or increased with a lentiviral vector. RUVBL2 messenger RNA overexpression was confirmed in 72 of 96 HCC cases, and it was associated with poorly differentiated tumors (P = 0.02) and a poor prognosis (P = 0.02) but not with β‐catenin mutations or c‐myc levels. Although RUVBL2 was strictly nuclear in normal hepatocytes, tumoral hepatocytes exhibited additional cytoplasmic staining. There was no mutation in the coding sequence of RUVBL2 in 10 sequenced cases. Silencing RUVBL2 in HuH7 HCC cells reduced cell growth (P < 0.001) and increased apoptosis, as shown by DNA fragmentation (P < 0.001) and caspase 3 activity (P < 0.005). This was associated with an increased expression of several proapoptotic genes and with an increased conformational activation of Bak‐1 and Bax. On the other hand, HuH7 cells with an overexpression of RUVBL2 grew better in soft agar (P < 0.03), had increased resistance to C2 ceramide–induced apoptosis (P < 0.001), and gave rise to significantly larger tumors when injected into immunodeficient Rag2/γc mice (P = 0.016). Conclusion: RUVBL2 is overexpressed in a large majority of HCCs. RUVBL2 overexpression enhances tumorigenicity, and RUVBL2 is required for tumor cell viability. These results argue for a major role of RUVBL2 in liver carcinogenesis. (HEPATOLOGY 2007.)

Involvement of FrzA/sFRP-1 and the Wnt/Frizzled Pathway in Ischemic Preconditioning

Phosphorylation and subsequent inactivation of glycogen synthase kinase (GSK)-3&bgr; via the Akt/PI3-Kinase pathway during ischemic preconditioning (PC) has been shown to be cardioprotective. As FrzA/sFRP-1, a secreted antagonist of the Wnt/Frizzled pathway, is expressed in the heart and is able to decrease the phosphorylation of GSK-3&bgr; in vitro on vascular cells, we examined its effect during PC using transgenic mouse overexpressing FrzA in cardiomyocytes (&agr;-MHC promoter) under a conditional transgene expression approach (tet-off system). Overexpression of FrzA inhibited the increase in GSK-3&bgr; phosphorylation as well as protein kinase C (PKC) epsilon activation in transgenic mice after PC as compared with littermates. Phospho-Akt (P-Akt), phospho-JNK, or the cytoplasmic &bgr;-catenin levels were not modified, phospho-p38 (P-p38) was slightly increased in transgenic mice after PC as compared with littermates. FrzA transgenic mice displayed a larger infarct size and a greater worsening of cardiac function compared with littermates. All these differences were reversed by the addition of doxycycline. This study demonstrates for the first time that disruption of a &bgr;-catenin independent Wnt/Frizzled pathway induces the activation of GSK-3&bgr; and reverses the benefit of preconditioning.

Low amounts of trans 18:1 fatty acids elevate plasma triacylglycerols but not cholesterol and alter the cellular defence to oxidative stress in mice.

Trans fatty acids are found mainly in processed foods. It has been shown that when their intake is high, total cholesterol, LDL-cholesterol and triacylglycerols are elevated, while HDL-cholesterol decreases. To evaluate a possible effect of these compounds, even in low amounts, C57Bl/6J mice were fed for 7 weeks a diet containing 13.6 % energy as partially hydrogenated rapeseed oil-enriched diet (Trans diet). The Trans diet contained 3 % energy as trans 18:1 fatty acid (elaidic acid). Control mice were on an isologous diet containing native rapeseed oil (Rapeseed diet) in which trans fatty acids were undetectable. Total, free and HDL-cholesterol as well as reverse cholesterol transport did not change. However, plasma triacylglycerol and VLDL levels increased. Hepatic gene expression in the Trans v. Rapeseed diet were compared using quantitative RT-PCR. The Trans diet produced a 2-3-fold elevation in mRNA of fatty acid synthase and microsomal transfer protein mRNA, explaining (at least in part) the observed increase in triacylglycerols and VLDL. In addition, mice on the Trans diet developed a deficiency in plasma vitamin E accompanied by a higher concentration of F2-isoprostanes, indicative of increased oxidative stress. The 78 kDa glucose-related protein (GRP78) mRNA expression increased 3-4-fold in liver, suggesting that a response against apoptosis was provoked by lipid peroxidation.

In vivo silencing of Reptin blocks the progression of human hepatocellular carcinoma in xenografts and is associated with replicative senescence

BACKGROUND & AIMS We previously showed that Reptin is overexpressed in hepatocellular carcinoma (HCC), and that in vitro depletion of Reptin with siRNAs led to HCC cell growth arrest and apoptosis. Here, we asked whether in vivo targeting of Reptin in established tumours had a therapeutic effect. METHODS We used lentiviral vectors to construct HuH7 and Hep3B cell lines with doxycycline (Dox)-dependent expression of Reptin (R2) or control shRNA (GL2). Cells were injected subcutaneously into immunodeficient mice, and Dox was given when tumours reached a volume of 250 mm(3). RESULTS In vitro, the growth of GL2-Dox, GL2+Dox, and R2-Dox cells was undistinguishable whereas that of R2+Dox cells stopped 4 days after Dox treatment. The growth decrease was associated with increased apoptosis, and evidence of replicative senescence, as shown by staining for acid beta-galactosidase and the presence of senescence-associated heterochromatin foci. In xenografted mice, R2+Dox tumour growth stagnated or even regressed with prolonged treatment in contrast with the GL2-Dox, GL2+Dox, and R2-Dox tumours that progressed steadily. The blockage of tumour progression was associated with the induction of senescence and reduced cell proliferation. CONCLUSIONS In vivo Reptin depletion leads to tumour growth arrest. Reptin may prove a valuable target in HCC.

Acute oxidative stress is associated with cell proliferation in the mouse liver.

Oxidative stress is known to produce tissue injury and to activate various signaling pathways. To investigate the molecular events linked to acute oxidative stress in mouse liver, we injected a toxic dose of paraquat. Liver necrosis was first observed, followed by histological marks of cell proliferation. Concomitantly, activation of the MAP kinase pathway and increased levels of the anti‐apoptotic protein Bcl‐XL were observed. Gene expression profiles revealed that the differentially expressed genes were potentially involved in cell proliferation. These data suggest that paraquat‐induced acute oxidative stress triggers the activation of regeneration‐related events in the liver.

Frizzled A, a novel angiogenic factor: promises for cardiac repair

OBJECTIVE Frizzled A is a very recent protein expressed in the cardiovascular hood by cardiomyocytes and by endothelial cells. This protein plays key roles in vitro in vascular cell proliferation and is able to induce an in vivo angiogenic response. Regarding these properties, we assess the hypothesis that Frizzled A could act in the healing process after myocardial infarction. METHODS To investigate the role of Frizzled A, we established a transgenic mouse line overexpressing the protein and developed a model of myocardial infarction by coronary artery ligation. RESULTS The incidence of cardiac rupture after myocardial infarction was reduced in transgenic mice (6.5 versus 26.4% in controls, n=165; P<0.01). Infarct sizes were smaller in transgenic mice (18% of left ventricle circumference versus 28.1% in control at day 30; P<0.001; n=6) and the cardiac function was improved (3800 +/- 370 versus 2800 +/- 840 mmHg/s dp/dtmax in controls, -2800 +/- 440 versus -1800 +/- 211 dp/dtmin in controls at day 15; P<0.001; n=6). Early leukocyte infiltration had decreased in transgenic mice during the first week (103 +/- 59 versus 730 +/- 463 cells/mm2 in controls at day 7; P<0.001; n=6) and the apoptotic index was decreased by 50% at day 7. Capillary density in the scar was higher in transgenic mice (290 +/- 103 versus 104 +/- 43 vessels/mm2 in control at day 15; P<0.001) and vessels were more muscularized and mean lumen area was 3-fold higher (952 +/- 902 versus 313 +/- 350 microm2 in control; P<0.001). CONCLUSION Overexpression of Frizzled A reduced the infarct size, improved cardiac recovery, modified inflammatory response and amplified angiogenesis. For these reasons, this protein would be of interest for cardiac surgeons using angiogenic therapy (as gene or protein injection) in ischemic heart diseases in non-revascularizable patients.

γδ T Cells Confer Protection against Murine Cytomegalovirus (MCMV)

Cytomegalovirus (CMV) is a leading infectious cause of morbidity in immune-compromised patients. γδ T cells have been involved in the response to CMV but their role in protection has not been firmly established and their dependency on other lymphocytes has not been addressed. Using C57BL/6 αβ and/or γδ T cell-deficient mice, we here show that γδ T cells are as competent as αβ T cells to protect mice from CMV-induced death. γδ T cell-mediated protection involved control of viral load and prevented organ damage. γδ T cell recovery by bone marrow transplant or adoptive transfer experiments rescued CD3ε−/− mice from CMV-induced death confirming the protective antiviral role of γδ T cells. As observed in humans, different γδ T cell subsets were induced upon CMV challenge, which differentiated into effector memory cells. This response was observed in the liver and lungs and implicated both CD27+ and CD27− γδ T cells. NK cells were the largely preponderant producers of IFNγ and cytotoxic granules throughout the infection, suggesting that the protective role of γδ T cells did not principally rely on either of these two functions. Finally, γδ T cells were strikingly sufficient to fully protect Rag−/−γc−/− mice from death, demonstrating that they can act in the absence of B and NK cells. Altogether our results uncover an autonomous protective antiviral function of γδ T cells, and open new perspectives for the characterization of a non classical mode of action which should foster the design of new γδ T cell based therapies, especially useful in αβ T cell compromised patients.

Transcriptional effects of glucocorticoid receptors in the dentate gyrus increase anxiety-related behaviors.

The Glucocorticoid Receptor (GR) is a transcription factor ubiquitously expressed in the brain. Activation of brain GRs by high levels of glucocorticoid (GC) hormones modifies a large variety of physiological and pathological-related behaviors. Unfortunately the specific cellular targets of GR-mediated behavioral effects of GC are still largely unknown. To address this issue, we generated a mutated form of the GR called ΔGR. ΔGR is a constitutively transcriptionally active form of the GR that is localized in the nuclei and activates transcription without binding to glucocorticoids. Using the tetracycline-regulated system (Tet-OFF), we developed an inducible transgenic approach that allows the expression of the ΔGR in specific brain areas. We focused our study on a mouse line that expressed ΔGR almost selectively in the glutamatergic neurons of the dentate gyrus (DG) of the hippocampus. This restricted expression of the ΔGR increased anxiety-related behaviors without affecting other behaviors that could indirectly influence performance in anxiety-related tests. This behavioral phenotype was also associated with an up-regulation of the MAPK signaling pathway and Egr-1 protein in the DG. These findings identify glutamatergic neurons in the DG as one of the cellular substrate of stress-related pathologies.